Axiomatic Design of High Speed Milling Cutter and Fuzzy Object Element Evaluation for Dynamic Cutting Performance

Bin Jiang; Ling Jiang; Min Li Zheng; J. Zhou

doi:10.4028/www.scientific.net/MSF.626-627.59

Paper Titles

A Two-Dimensional Ultrasonically Assisted Grinding Technique for High Efficiency Machining of Sapphire Substrate
p.35

Analysis of Factors Effecting Profile Accuracy of Metal-Bonded Ball-Headed Diamond Wheel in Electrical Discharge Dressing Process
p.41

Study on the Machinability of Glass Soda-Lime in Diamond Cutting Process
p.47

Research on Deliquescent Polishing Fluid for KDP Crystals
p.53

Axiomatic Design of High Speed Milling Cutter and Fuzzy Object Element Evaluation for Dynamic Cutting Performance
p.59

Effect of Cutting Speed on Chip Fracture Strain in High Speed Cutting
p.65

Influence of Chip Curl on Tool-Chip Contact Length in High Speed Machining
p.71

Theoretical Model of Grinding Force in Quick-Point Grinding
p.75

Modeling and Simulation of Control System for Power Magnetic Bearings
p.81

HomeMaterials Science ForumMaterials Science Forum Vols. 626-627Axiomatic Design of High Speed Milling Cutter and...

Axiomatic Design of High Speed Milling Cutter and Fuzzy Object Element Evaluation for Dynamic Cutting Performance

Abstract:

According to the theory of axiomatic design, to process function decomposition and grey cluster analysis of high speed milling cutter with indexable inserts, found the design matrix of cutter, and propose the design method of cutter based on high speed milling safety, stability and efficiency. High speed face milling cutter for machining aluminum alloy was developed according to design method and design matrix of cutter, experiment and fuzzy object element evaluation for cutting performance of cutter was accomplished. Results showed that there was not design loop which existed in the development of cutter, design process was simplified effectively, cutting energy of high speed milling cutter using axiomatic design method was dispersed, it held higher safety, cutting stability and efficiency, comprehensive cutting performance met the design requirement of high speed milling cutter.

You might also be interested in these eBooks

Advances in Materials Manufacturing Science and Technology XIII Volume I

View Preview

Info:

Periodical:

Materials Science Forum (Volumes 626-627)

Pages:

59-64

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.626-627.59

Citation:

Cite this paper

Online since:

August 2009

Authors:

Bin Jiang, Ling Jiang, Min Li Zheng, J. Zhou

Keywords:

Axiomatic Design, Fuzzy Object Element Evaluation, High Speed Milling (HSM), Milling Cutter

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] X.W. Liu and K. Cheng: International Journal of Advanced Manufacturing Technology Vol. 20 (2002) , pp.631-636.

Google Scholar

[2] W.X. Tang, X. Ai and H.Y. Wu: Materials Science Forum Vols. 471-472 (2004), pp.663-667.

Google Scholar

[3] Z.Q. Liu, Y. Wan and J.G. Liu: Key Engineering Materials Vols. 259-260 (2004), pp.462-465.

Google Scholar

[4] C.K. Toh: Materials and Design Vol. 26 (2005) , pp.517-533.

Google Scholar

[5] M.G. Helander: Journal of Engineering Design Vol. 13 (2002), pp.321-326.

Google Scholar

[6] S.F. Liu and Y.G. Dang: The International Journal of System & Cybernetics Vo1. 33 (2004), pp.295-301.

Google Scholar

[7] A.M. Goncalves-Coelho and J.F. Antonio: International Journal of Production Economics Vo1. 109 (2007), pp.81-89.

Google Scholar

[8] M.G. Helander and L. Li: Journal of Engineering Design Vo1. 13 (2002) , pp.321-326.

Google Scholar

[9] S.G. Lee, S.W. Lye, and M.K. Khoo: The International Joumal of Advanced Manufacturing Teehnology Vo1. 18 (2001), pp.148-156.

Google Scholar

[10] K. Hua, G. Chiou and T. Hshiung: Enviroriment Management Vol. 30 (2002), pp.816-830.

Google Scholar